…partial FY mode with Sirius 70 mm2 active area SDD (Rayspec) and Xspress3mini pulse processor (Quantum Detectors) Main preparation chamber (for relatively clean sample preparation procedures) Base pressure 3⋅10-10mbar Sample…
…microgram scales Available in chemistry lab Ultrasonic solvent cleaning Available in chemistry lab Wet chemical processing (acids/bases) Available with advanced notice UHV evaporators Available with advanced notice (EFM-3, EF 40C1)…
…sustainable future and support the development of new and emerging technologies. Examples of research published in 2023 include: The optimisation of catalysts for cleaner air production The generation of sustainable…
…oxide shell using a spark discharge method, a technique both flexible in what material can be tested, and known to produce very clean, size-selected particles. To understand their relevance as…
…the sample position and near field microscope gantry. c indicate the optional area detector position. d is the medium field microscope gantry that can also carry optics for the future…
…the MAX IV Science Directors Marjolein Thunnissen and Aymeric Robert, Accelerator Director Pedro Tavares, and Director Olof Karis presented updates on the facility and its future. The keynote was given…
The enabling forces behind the PRISMAS program are eight Swedish universities, industrial partners, and the large-scale research infrastructure MAX IV – all dedicated to the future of synchrotron research for…
…measurement and already obtained some interesting results.” “A roadmap to the future” The HAXPES and HAXPEEM measurements will be done at the Petra III beamlines at the synchrotron DESY in…
…values these contributions and welcomes interest to provide input on possible future advancements. FinEstBeAMS beamline chevron_right The financing and construction of the FinEstBeAMS beamline (Finnish-Estonian Beamline for Atmospheric and Materials…